A computer-implemented method and system for developing and running applications in a networked computing environment includes one aspect in which requests are sent from a client computer running a browser program and receiving the requests at a server computer. The server computer runs an application in response to the requests and constructs output information at the server computer in a format usable by the browser program, based on results generated from the application. The server computer forwards the output information to the browser program for display at the client computer. All of the necessary business logic for receiving the requests, running the application, and constructing the output information is contained within a single linkable library of executable functions. Another aspect provides for the development of customized application using business rules and logic without the need for a programmer.
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1. A method for constructing a business rules based application comprising:
providing a set of wizards selectable by a user;
selecting at least one wizard from the set of wizards to specify a number of actions to be performed by the business rules based application;
providing a set of verbs selectable by the user;
selecting at least one verb from the set of verbs to define the number of actions to be performed by the business rules based application; and
assigning a child status or next status for each of the actions in a user-specified hierarchical order to set the order of execution of the number of actions in the application.
13. Apparatus for constructing a business rules based application comprising a processor programmed to:
provide a set of wizards selectable by a user;
select at least one wizard from the set of wizards to specify a number of actions to be performed by the business rules based application;
provide a set of verbs selectable by the user;
select at least one verb from the set of verbs to define the number of actions to be performed by the business rules based application;
assign a child status or next status to each of the actions in a user-specified hierarchical order to set the order of execution of the number of actions in the application.
7. A computer readable medium comprising instructions, which when executed by a processor, performs a method for constructing a business rules based application comprising:
providing a set of wizards selectable by a user;
selecting at least one wizard from the set of wizards to specify a number of actions to be performed by the business rules based application;
providing a set of verbs selectable by the user;
selecting at least one verb from the set of verbs to define the number of actions to be performed by the business rules based application; and
assigning a child status or next status to each of the actions in a user-specified hierarchical order to set the order of execution of the number of actions in the application.
2. The method according to
3. The method according to
specifying actions to construct the business rules based application and actions to operate on data during execution of the business rules based application.
5. The method according to
stepping through the number of actions to debug the business rules based application.
6. The method according to
8. The medium according to
9. The medium according to
specifying actions to construct the business rules based application and actions to operate on data during execution of the business rules based application.
11. The method according to
stepping through the number of actions to debug the business rules based application.
12. The computer readable medium according to
14. The apparatus according to
15. The apparatus according to
specify actions to construct the business rules based application and actions to operate on data during execution of the business rules based application.
17. The apparatus according to
step through the number of actions to debug the business rules based application.
18. The apparatus according to
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This application claims the benefit of U.S. Provisional Application No. 60/174,747, filed Jan. 4, 2000, U.S. Provisional Application No. 60/166,247, filed Nov. 18, 1999, and U.S. Provisional Application No. 60/171,143, filed Dec. 16, 1999, the disclosures of which are hereby incorporated by reference herein.
The present invention relates to business rules based application development and the deployment of such applications. In particular, the present invention provides for the development of customized applications using basic business rules and logic such that a software programmer is not needed and provides for the deployment of such applications on server computers in response to client browser requests without the need for business logic coding in multiple places on the server.
The Internet and World Wide Web (the “Web”) are expanding globally with millions of new users being added every month. This expansion has resulted in more and more business processes being deployed on Web servers. Web servers are Web-connected computers that receive requests from client Web browsers, run the required application processes, and send the response back to the client Web browser for the next action from the client.
A business process is a unique sequence of detailed business actions carried out at a specific time to achieve a specific business result. Each process has a distinct start and a distinct end point. A typical application has many processes that can be run independent of each other.
Conventionally, to develop customized software applications, a business user either had be a computer programmer or hire a computer programmer to write code to implement the desired business logic. In the case of hiring a programmer, the business user typically has to wait for weeks or months in order to get the application built, tested, debugged and operational.
Likewise, to deploy applications on a Web server, program code is written and deployed on the Web server. Depending upon inputs from the client, this code executes a specific set of business logic, which is typically kept in a special program called a DLL (Dynamic Link Library) and generates HTML (Hypertext Markup Language) output to be sent to the client's Web browser.
A DLL is a set of routines that can be called from procedures and is loaded and linked into an application at run time. HTML is language used to create documents on the Web with hypertext links. HTML defines the structure and layout of a Web page by using a variety of tags and attributes. An HTML tag consists of a directive, possibly extended with one or more attributes, within angle brackets, for example <FONT SIZE=3>. There are many such tags that can be used to format and layout the information on a Web page. For instance, the tag <P> is used to make paragraphs and <I> . . . </I> is used to italicize fonts. Tags can also specify hypertext links, which automatically direct users to other Web pages with a single click of the mouse on the link.
On Microsoft operating systems, a Microsoft supplied component known as ASP (Active Server Pages) is required to get the request from the Web browser, run the appropriate application logic or DLL, construct an HTML output, and then send the output to the browser. ASP allows Web pages to be dynamically created by the Web server and uses scripting known as ActiveX, which provides a set of rules for how applications share information.
ActiveX uses COM (Component Object Model) components, which are binary files (such as .DLL, .ocx, or .exe files) that support the Microsoft COM standard for providing objects. Objects are generally entities that consists of both data and instructions for how to manipulate the data. COM components enable programmers to develop objects that can be accessed by any COM-compliant application. ActiveX and ActiveX controls are based on COM. ActiveX controls can be developed using a variety of programming languages such as C, C++, Java and Visual Basic. An ActiveX control, for example, can be automatically downloaded and run by a Web browser.
With ASP, one can combine HTML pages, script commands, and COM components to create interactive Web pages or Web-based applications. When a Web browser requests a Web page created by ASP (i.e., a Web page with a ASP file extension), the Web server computer generates a page with HTML code and sends it back to the Web browser.
A convention use of ASP to deploy Web server applications is shown in
One aspect of the present invention provides a computer-implemented method for running applications on a server computer and generating Web page information to be displayed on one or more client computers connected to the server computer via the Internet. The method comprises: sending data from a client computer to a server computer running a DLL, the data comprising an identify of a user selected application, Web page information associated with a Web page displayed on the client computer, and user-entered information used with the application; running the DLL to retrieve the data and to identify one or more executable processes within the selected application; executing the identified processes within the DLL in association with the user-information to generate output information; generating Web page information used to form a Web page viewable at the client computer by the DLL, the Web page information containing the output information; and forwarding the Web page information to the client computer for display.
Preferably, the Web page information is forwarded to an ASP layer and comprises HTML output, and preferably HTML tags. The Web page information preferably comprises an incoming screen name from the current screen being viewed at the client computer. The DLL also desirably runs a routing subroutine to select one or more executable processes by reference to parameters of incoming screen name, application file name and a selected screen element. Most preferably, the client computer is configured to run a Web browser for sending and receiving information to and from the server computer.
Another aspect of the present invention provides a computer-implemented method for running applications on a server computer connected via a network to one or more client computers, comprising: receiving requests at the server computer from a client computer running a browser program; running an application in response to the requests; constructing coded information used to form output by the browser program based on results generated from the application; and forwarding the coded information to the browser program, wherein all necessary business logic for receiving the requests, running the application, and constructing the coded information is contained within a single linkable library of executable functions. Preferably, the single linkable library of executable functions resides exclusively in the Web server computer and comprises a DLL.
A further aspect of the present invention provides a computer-implemented method for running applications in a networked computing environment. This method comprises: sending requests from a client computer running a browser program; receiving the requests at a server computer; running an application in response to the requests; constructing output information at the server computer in a format used by the browser program based on results generated from the application; and forwarding the output information to the browser program for display at the client computer, wherein all necessary business logic for receiving the requests, running the application, and constructing the output information is contained within a single linkable library of executable functions.
Another aspect of the present invention provides a computer-based system for running applications in a networked computing environment. The system comprises a client computer running a browser program and a server computer for receiving requests from the client computer via network connecting the client and server computers. The server computer runs an application to respond to the requests, construct output information in a format usable by the browser program based on results generated from the application, and forward the output information to the browser program for display at the client computer. All of the necessary business logic for receiving the requests, running the application, and constructing the output information is contained within a single linkable library of executable functions.
A still further aspect of the present invention is a computer readable medium storing a set of instructions for controlling a server computer in a networked computing environment including a client computer running a browser program, a server computer for receiving requests from the client computer, and a computer network interfacing the client and server computers. The medium comprises a single linkable library of executable functions and a set of instructions resident in server computer for causing the server computer to (i) run an application to respond to requests from the client computer, (ii) construct output information in a format used by the browser program based on results generated from the application, and (iii) forward the output information to the browser program for display at the client computer, wherein all necessary business logic for receiving the requests, running the application, and constructing the output information is contained within the single linkable library of executable functions. Preferably, the application is run at least in part on server computer.
Another embodiment of the present invention provides a computer-implemented method for developing a business rules based application, comprising: proving a set of wizards selectable by a user; providing a set of verbs selectable by the user to implement business rules used in the application; choosing at least one of the verbs to define an action to be performed by the application when executed; and selecting at least one of the wizards to specify actions to be performed by the application when executed.
Desirably, the computer-implemented method for developing a business rules based application, comprises proving a set of wizards selectable by a user, including a data extraction wizard and an assignment wizard; providing a set of verbs to be used to implement business rules used in the application; choosing a verb to define at least one input criteria to be specified by the user of the application when executed; selecting the data extraction wizard to instruct the application to extract initial data from a first location; selecting the assignment wizard to specify a location for the application to store the initial data; selecting the data extraction wizard to instruct the application to extract secondary data from a second location, the secondary data being selected based on the initial data; and selecting the assignment wizard to specify a location for the application to store the secondary data.
The present invention is preferably implemented in the form of software that is adapted to run on a Web server computer. The software can be stored on storage media such floppy disks, CD-ROM, hard disk, RAM, etc. and installed on the Web server. In a typical Web server set-up, as shown in
As explained below, another aspect of the present invention allows a user with little to no programming experience to define an application, which is a collection of business processes related to each other, to achieve a complete business objective. The output of the user's actions is an “application file” such as application file 40, containing all information required to execute the application. Using the deployment method of the present invention, part of the application file, along with some other required information, is passed to the DLL. The DLL then executes the application and necessary processes and returns back with the application result.
For example, the present invention could run a “Shipment” application that has a number of business processes that can run independently of each other, including:
In accordance with a preferred embodiment, the first page shown to the user's browser is an HTML page that shows a welcome message. This page has within it two hidden controls (fields or data areas). One hidden control stores the path of the application file to be executed and the other hidden control stores the screen name that uniquely identifies the present screen. For the default page, the values for these hidden controls are hard coded.
The welcome page does not have any input controls and shows a “Continue” button. When the user clicks on the Continue button, a call is made to the DLL. The DLL uses values of the hidden controls, i.e., the path of the application file and screen name, to determine from which application and screen the message is coming from and identifies the correct application file and process within that file to use to handle the message. The DLL applies the business logic as dictated by the process, composes an HTML reply to be sent to the client's browser, populates the hidden controls in the new HTML output and forwards it to the ASP layer. The HTML output is sent back as response to the user's request by the ASP layer. In this case, the ASP layer acts only as a blind pass-through mechanism, with no knowledge about what the HTML being sent to the user contains.
The next page that is shown to the user could contain some input parameters requiring the user to fill in some values. This page will also contain the same hidden controls as the default page, only this time these controls will not be hard coded, but will contain values populated by the DLL. After the user fills in values into the input controls and clicks on Continue button, a call is made to the DLL. Information contained in the hidden controls as well as any inputs provided by the user, is sent to the DLL. The DLL executes the application specified by the application path and generates an HTML output. Again, the HTML output is sent back to the user as response. This process of showing the user pages for some data entry, calling the DLL with the user entered information (and hidden controls), and returning back with the HTML generated by the DLL is repeated until all inputs required to show the final result are received by the DLL. At that time, the HTML generated by the DLL is the final result to show to the client.
In the entire process, there is no need of writing any business logic or application specific logic into the Web server side code (ASP). All of the business logic and application specific logic resides within the DLL. Writing complicated Web server side code is now reduced to a simple call to the DLL, irrespective of the application being executed. Applications can hence be deployed much faster on the Web using the present invention.
As another example, a business user may want to build an application that shows a list of three applications to the user. The first is Customer Data Entry, the second is Order Details, and the third is Shipment Details. Each application has a different set of input requirements. As shown in
The first step is to define the application files for specified applications of Customer Data Entry 52a, Order Details 52b and Shipment Details 52c. This is done preferably using the other aspect of the present invention; namely the methodology for building applications using a programmer-less, point-and-click, business rules based system. Preferred software for implementing this aspect of the present invention is the design time version of InstaKnow™ software, offered by InstaKnow, Inc. of Edison, N.J. An example of the use of the business rules based application development aspect of the present invention is described below. Use of this aspect of the invention builds an application file, which generates the screen showing the list of applications to show to the user.
On the default HTML page (
When the user logs on to the Web site, he or she is shown the default HTML page 40, and hidden controls 42 and 44 are hard coded on this page. When the user clicks on the Continue link 46, a call is made to the DLL resident on the Web server computer. At this stage, there is no input information being entered by the user on welcome page 40 so only the information contained in the hidden controls is passed to the DLL.
The DLL then executes the application identified by the application file path, performs any business logic depending on the incoming screen name, and generates an HTML output to send back to the user. Psuedo-code specifying this process is as follows:
Psuedo-code for processing the RespondToHomePage application, is as follows:
For the example, the HTML generated by the DLL will show the user the list of applications to choose from, as shown in
Suppose that the user selects Customer Data Entry 52a and clicks on Continue 58. The DLL is called again. This time, information contained in the hidden controls 54 and 56, as well as user entered information (selection of Customer Data Entry application) is passed to the DLL. The DLL executes the application and generates the HTML output to show to the user a page 60 (
The user is then shown page 60 requesting input specific to the Customer Data Entry. For this example, the user enters information in the fields Name 62a, Date of Birth 62b, City 62c, and E-mail address 62d. When the user clicks on Continue 63, the DLL is again called with information entered by the user and the hidden controls 64 and 65. The DLL executes the application and returns back with the result Web page 70 (
With this aspect of the present invention, all of the business logic, including the logic required to get the request from the Web browser, run the appropriate application logic, and construct an HTML output is kept inside the DLL only. The ASP layer is blind and therefore used only to forward HTML generated by the DLL to the Web browser at process 44. This approach is possible because the present invention has the ability to (1) route messages from the Web browser to a correct process within the DLL and (2) generate the HTML output. In effect, the present invention is an alternative to ASP in both regards. To route to the correct process within the DLL, three hidden parameters are obtained from the HTML output generated by the DLL. These parameters include (1) the screen name, (2) the application file (IAL) name, and (3) the clicked element, which is on the HTML page. With the combination of these three parameters, the program checks the router process and routes the logic control to the appropriate process within the DLL.
The above aspect of the present invention results in the benefit in that one does not need to learn ASP to deploy Web based applications. Another aspect of the present invention provides the business logic portion to be implemented using a user-friendly, wizard-based point and click programming tool interface, such as via the use of the software program InstaKnow™, such that the business logic required for the routing, processing and HTML generation of any application can be specified by a business user without needing a computer programmer to write the code.
This application development aspect of the invention allows a business user to make customized Web and non-Web applications using a point-and-click protocol and without needing a programmer or knowledge of any programming language. All the user needs to know is the business data and its business meaning and the business processes (i.e., a particular sequence of operations on the data) that operate on that data to achieve the required business result.
In today's business world, the advantages of programmer-less, point-and-click, user driven application generation are obvious. With the present invention, users do not have to wait for weeks and months to get applications built, and they can build them themselves. The invention also has a unique ability of “automatic surfing,” i.e., automatically, enter data on Web pages, press buttons and links, get the response from the Web site and read data of interest to take further automated actions.
The invention is preferably in the form of software providing a point-and-click approach and wizard-based interface and assumes and requires no programming expertise among business users. The user just has to know in simple ways what manipulations have to be applied to the business data to achieve the required results. A user interface guides the user from that point on using a set of intelligent wizards. The wizards make sure that the complete and correct information about the user's intent for every step is correctly captured and saved. The applications built can be tried out and tested immediately without having to know technical details. Because of the automated assistance provided by the wizards, it is estimated that the users can build applications in much less time than it takes programmers of conventional languages to build the same applications.
The application development software of the present invention is not specific to any industry or computing problem. It can be used to easily develop simple or complex applications in any industry. As an example, a user can easily develop an application within a couple of days that will go to Web sites of its various supply vendors, collect spare part specific information, perform logical and mathematical operations on the data, decide which vendor gets the contract, inform the vendor, and place an order for a certain quantity of spare parts over the Internet.
The software allows users to access and operate on real time data elements from various data sources. Data can be extracted from the Web (Internet and Intranets) from HTML or XML pages, and ODBC compliant data sources like fixed format flat files, delimited flat files, Excel, Word, Access, SQL Server, Oracle, Sybase and any other ODBC compliant databases. Another feature of the application development software is the ability to transfer not only data but also business logic over the Internet between collaborating computers.
Preferably, the application development software has built-in facilities for version control, security/permissions control and migration control, and can run on any 32-bit Microsoft platform on a client desktop or a LAN/Web server. In the Web server mode, high-end scalability can be ensured by deploying it as a business object component in Microsoft Transaction Server (MTS). A built-in scheduler is also preferred to allow repeated automatic executions of same business processes at user specified frequencies.
There are three main phases of the user's interaction with the application development software's point and click environment. These include a Design Phase, a Playback (Debug) Phase and a Run Phase. The Design Phase is where the user defines the business logic. The Playback (Debug) Phase is where the user can try out the business logic immediately. The user may start/stop the business logic after each step for verification (debugging) purposes. A watch mode allows monitoring data values of interest as the business process is being verified. At the Run Phase, after being satisfied that the logic is working correctly, the user can schedule the business logic to run automatically at pre-determined frequencies, including on demand. In the run phase, the logic runs automatically without any user intervention.
An example of the use of the application development software is now described in the context of obtaining data from the Web and saving it into a spreadsheet. In this example, there is a list of stocks in a Microsoft Excel spreadsheet and the user wishes to retrieve and save the latest stock price and trade volume information for the whole list from the Web and then save it in another Excel spreadsheet. To achieve this business result, the following data manipulation steps have to be applied:
Within the wizard-based-programming environment, the information about all the groups, data elements, and processes is always available once they have been defined. This information is arranged in a fashion that will facilitate the meaningful information exchange between the individually defined pieces, and produce a desired result.
The following describes how an application is built from the various components like data elements, groups, processes, and applications. The design phase is where the user defines his intent of what should occur to the business data of interest. The user selects the next action to be performed from a list of available actions.
In the example of getting stock prices and saving them in another spreadsheet, the actions performed are:
The wizard-based programming interface guides the user from that point on as a set of intelligent wizards. The wizards make sure that the complete and correct information about the user's intent for every step is correctly captured and saved. As shown in
The first step in the design of the application is to assign a name to the application. To do so, the designer clicks the Application button 82 to bring up the Application Wizard. The Application Name 92 is entered in the Wizard, and the stage of the application is specified at drop down box 94.
The next step is to define a process by which the application will be identified, using Process Wizard 100 (
The next field on the Process Wizard 100 is the permissions 106 to use this application. The read/write/execute permission will allow any other user to edit the design of this process. For tighter security, the designer can opt for a Read/Execute type of permission only. The next fields are the color scheme 108 and the language field 109. The designer can select the language in which the application will be built up. In this example the designer selected English as the language for application construction.
The first step under the process steps in the design of the above application is to ask the user if he/she wants to view the final output or not. This is achieved through the Accept verb. The web based programming such as InstaKnow, accomplishes complex programming tasks transparent to the user, by allowing the user to define a simple business action. This way, the user is least bothered with how to program the statement; while at the same time can construct logic in plain simple way. Intelligent wizards prompt the user to get complete and correct information about the user's business intent. The supported actions or verbs are specified for selection by the designer. For example, if the process, when it runs, needs to get some business information from the end user, the application designer uses the Accept verb to halt the program and prompt the end user for appropriate information. The user-supplied value, after designer specified validations, is stored in the data element specified by the designer. Preferred actions or verbs are those used by the InstaKnow software, which are listed under the Program Logic heading in U.S. Provisional Application 60/174,747, the disclosure of which is hereby incorporated by reference herein.
As shown in
In step 2, the designer wants to extract non-Web data by opening an existing Excel file to read the list of stock symbols it contains. The read of Excel file is an Extract Data type of operation, which falls under the Program mode. The user clicks the Program mode to access the Extract verb. The click on extract button brings up the Extract Data Wizard 120 (shown in
The designer must then define the data source. To do so, the designer supplies a name 121 to this extract procedure, and user-friendly comments 122. Thereafter the designer decides from where the data will be extracted. In this case, the data is to be extracted from an Excel file, which falls under the Other Data Sources category 123. A click on this button brings up the next Wizard 130 (
The designer provides a group name 131 by which the extracted list of stock symbols will be recognized, then selects the data type 132, which is Microsoft Excel, and the path 133 to the location of the file, which on the C drive.
The file is opened and information in it is read, and saved as database. The databases read are presented for selection in the next wizard step 140 (
In the next wizard step, shown in
Next in the Wizard, as shown in
Next, an option to filter out unwanted data is available to the designer to prune the selection of stock symbols, as shown in
This then completes the definition of the data to be extracted. The group name given to this data i.e., ReadStockList 131 (
The data read from the Excel file is now understood by the wizard-based application as a group of data elements organized by a data group named P001_ReadStockList (see
The second step is again the Extract Data step, but this time it is Web data that is of interest that must be extracted from the Web. As shown in
The designer gives a name 181 to this data extraction (here Initial Navigate to MSN Investor) and thereafter selects the file schema 183 that has the information stored on how to navigate the Web. Also, the designer selects box 184 to specify whether the Web browser will be visible to the user during the actual playback of this application. From the list of data groups already defined, the designer selects a data group 185, and a data element 186 to which the stock symbol from Excel file will be supplied. In
As shown in
In step 4, in the Assignment Wizard 200 (
Next is Step 5, wherein the Loops Wizard 210 specifies the definition of a conditional loop. The objective is to submit all the stock symbols from the list to the Web page, one at a time, and read the resulting values. So far only the submission-extraction routine (Step 4,
Thus far, the designer has defined how to read and store the list of stocks from an Excel file (P001_ReadStockList), and how to obtain one stock value at a time to submit it to the Web page (P001_msnStkInp). A link between them has to be established to transfer the data from one to another, and then to submit it to the Web page.
In step 6, as show in Assignment Wizard 230 of
In step 7, shown in
Step 8 is another assignment statement, as shown in
In step 9, the program moves the pointer to the last record in the data group that accepts values from the Web as a response to a submission of one stock symbol to the Web. Thus, as shown in
In step 10, the program assigns the extracted value to the group that will be saved to a file. As shown in
In Step 11, shown in
The next step 12 saves the group to an existing Excel file to save the extracted information to a permanent storage space. As shown in
Step 13 is the design of the IF conditional statement using the Conditional Wizard, shown in
The last step is the design of the output statement, including headers, footers, and logos. The design of the output works in two parts. The first part is the design of the layout of the page itself. The designer gives a name 311 to this design step (
In the second step of data output design, shown in
The application also provides a Debug phase 342, accessible from Run menu 341 (
To run application in Debug Phase, the designer selects the application file in which the application logic was saved after it was defined in the design mode. This is done through the File and Open menu buttons located on the top of the screen. The program then reads this file and populates all the information from the file in its memory. The wizard-based tool reproduces the application steps from its memory in the form of a design tree, as had been defined during the design step.
To run the application recently loaded in a debug mode, the designer goes to the menu option 341 labeled Run. Under this menu, there are submenus like Start and Debug. The submenu Debug 342 will playback the application in a debug mode one step at a time.
Similarly, if the designer wants to test another process inside this application in isolation, he/she can do so by selecting the process name from the drop down box 344 near the file menu. This action will refresh the designer window, and load the steps in the designer window that are specific to the selected process. Thereafter, the designer has to go back to the main menu, select Run, and then select the submenu under it called Start 343. Start has further two submenus called Start Application, and Start Process. The Start Process submenu will start the selected process in debug mode.
To make changes in a process/application step while in Playback (debug mode) the designer has to double click the step that he/she wants to edit. This will pop up a wizard specific to that step with the relevant current information. The changes made to this wizard will be saved, and a rerun of the process will use the changed values for that step thereafter. Highlighting a step in the desired process, and clicking the Edit button 345 on the tool bar can also perform the edit operation. The click on Edit menu 345 presents three new submenus Application, Current Selection, and Delete Current Node. The Current Selection submenu allows the designer to edit the contents of the highlighted step.
Once the playback starts, the wizard-based programming application reads each step of the process tree one by one. The verb at each step helps the application to decide what kind of action is to be performed next. The conditional loops appear in the design steps only once. The application development software preferably intelligently handles such conditions by actually looping the steps until the looping condition is satisfied.
After being satisfied that the logic is working correctly, the user can schedule the business logic to run automatically at pre-determined frequencies, including on demand. In the run phase, the logic runs automatically without any user intervention. In this mode, the user does not see the design steps, nor does he see the wizards. The job of selecting processes and submitting them to the application is performed through the Scheduler. This sometimes also is referred to as the silent mode of operation.
In the run phase, the application reads the application file in its memory, and arranges the steps of the processes internally in its memory and does not display them in a tree format as is done in the design phase.
A schedule designer and a scheduler are used in conjunction to create a schedule of processes and then run them automatically on the defined schedule. The schedule designer, shown in
To delete a process from the grid and from the scheduler, highlight the process in the Scheduled Tests grid 351 and clicks the “-” button 353 to delete it.
To update a process, the user highlights the process in the Scheduled Tests grid 351 then selects one of the interval options, namely Daily, Hourly, or ASAP (for As Soon As Possible) in Interval column 354. If the process is ASAP, it is assigned a priority code of zero (0) in Priority column 355 and goes as the topmost priority. Then, the users gives the actual time that the process in concern is supposed to run in Column 356. For example, if the user wants to run a process P1 every hour at 35 minutes past the hour, the user will check the ‘Hourly’ option, and type 35:00 in the adjacent box. After the information is provided, the user clicks the “=” (equal) button 357, and the information will be updated in the highlighted row of the grid in their appropriate places.
After all the processes have been assigned a time to start and priority, the scheduler file should be saved using Save button 358 to save the updated information to be used in the InstaKnow Scheduler, shown in
A sort option is provided to the designer by clicking on Sort Grid(s) button 359 to sort the Scheduled Tests grid, and the Historical Log of Processes grids. The sorting operation is performed based on the grid columns such as priority, process ID, and application ID.
The lower grid Historical Log of Processes 360, displays the processes that have been already processed by the Scheduler. This allows the designer to perform checks on the already run processes for results, and errors.
The Scheduler (
A ‘Time interval’ and the ‘Time to start’ are assigned. These two times work in conjunction to decide which process will be pulled, and be submitted to InstaKnow application, and which process actually is submitted. The time interval is the time between the start time and the future time between which all the processes will be scheduled. In
A click on the Run button 365 actually starts the scheduling process. The first process in the Processes To be Submitted grid 362 is removed from this grid and brought in the lower grid 366 named ‘Active Processes’ to show which process has been scheduled.
Once this process is finished running, it is removed from the Active Process grid 366 and is replaced by the new active process. Before a newly active process replaces the current process, the information is written out to the historical log file. The cycle continues until all the processes from the Processes to be Submitted grid 362 have been submitted.
After a complete cycle, the Scheduler goes in the sleep mode till the time interval is completed. In the example, Scheduler will wake up every one-hour, schedule the processes from the scheduler file, and start submitting them to the InstaKnow application.
Using an improved feature of transportable intelligence, multiple Web based computing resources cannot only automatically share data with each other, they can automatically share business rules or business intelligence with each other when required. The business intelligence can be immediately executed by the receiving computer.
The application development program keeps all conditional business logic as a data file/string called a knowledge Element or a Knowlet. This business intelligence can be supplied by one computer to other computers by simply transferring the Knowlet string over the Internet to an authorized and willing computer, which can then immediately execute that business logic under its own control.
In one business example of transportable business intelligence, a user can determine the best shipping cost quote using custom criteria. A customer visiting a Web-based Shipping Marketplace requests a quote for a commodity purchase. The complete quote consists of the commodity price plus the shipping price. However, in this case, the particular customer has the unique demand to find the cheapest shipper who will give at least a 15% discount on shipping charges if the shipping charges exceed 3% of the purchase price.
Since this conditional business rule is non-standard, it cannot be pre-supported by the Commodity or Shipping Marketplace. One of the few ways to support such custom business rules is to actually transfer the unique business rules, not just context sensitive business data, to the collaborating party (in this example the Shipping Marketplace) by encapsulating the rules as Knowlet data string and transferring it over the Internet to a partner.
Knowlets can be forwarded from partner to partner-unlimited number of times. Additional custom data and intelligence can be added to Knowlets in context specific ways before they are forwarded.
Using the application development software's ‘transportable intelligence’ capability, innovative services can be provided by collaborating partners across the Internet to satisfy customized demands and add value to the value chain.
As these and other variations and combinations of the features discussed above can be utilized without departing from the present invention as defined by the claims, the foregoing description of the preferred embodiments should be taken by way of illustration rather than by way of limitation of the present invention.
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